Non-thermal emission from microquasar jets: The case of GRS 1915+105

IF 10.2 4区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Journal of High Energy Astrophysics Pub Date : 2024-07-01 DOI:10.1016/j.jheap.2024.06.006
Dmitry Khangulyan , Valentí Bosch-Ramon , Daniela Hadasch
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Abstract

Microquasars (μQs) represent a prominent population of Galactic sources, from which broadband non-thermal emission was detected. At present, the potential of μQs as sources of gamma-ray emission is poorly understood and constrained. In most cases, even the power of μQ jets remains largely uncertain, and this hinders the study of gamma-ray generation in these sources. Using observational data obtained in the radio band, we derive an estimate of the jet power in one of the most famous Galactic μQ, in GRS 1915+105. Compared to other studies of this subject, we additionally consider constraints related to the energy dissipated at internal shocks in the jet, the conditions at which are obtained using properties of the radio blobs detected in the jets. We show that even if one subtracts the rest-energy of matter in the jet, the jet power in this source should be very high, 1039ergs1, or even higher. The properties of the detected radio emission favor jets with a Gauss-strength magnetic field at parsec distances from the black hole. Such a strong magnetic field should suppress inverse Compton (IC) emission from relativistic electrons, at least from parsec-scale jet. On the other hand, this strong magnetic field makes μQ jets perfect proton accelerators. If present, protons should easily be accelerated in the ultra-high-energy regime. However, due to a diluted target, protons should not lose a notable fraction of their energy in the jet, injected into the interstellar medium at the jet termination. This should significantly enhance the density of cosmic rays in the vicinity of GRS 1915+105. This may manifest itself as an extended gamma-ray source or as several compact sources if the target gas has a highly inhomogeneous distribution. This analysis has direct implication for studying Galactic μQ with such gamma-ray observatories as LHAASO, CTA, and SWGA in the next decades.

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微类星体喷流的非热辐射:GRS 1915+105 案例
微类星体(μQs)是银河系的一个重要来源,从它们中探测到了宽带非热辐射。目前,人们对微类星体作为伽马射线发射源的潜力还知之甚少,也没有对其进行严格的限制。在大多数情况下,甚至连μQ喷流的功率都还很不确定,这就阻碍了对这些伽马射线源产生情况的研究。利用在射电波段获得的观测数据,我们得出了银河系最著名的μQ之一,即GRS 1915+105中的喷流功率的估计值。与其他相关研究相比,我们额外考虑了与喷流内部冲击耗散的能量有关的约束条件,这些约束条件是利用在喷流中探测到的射电球的特性获得的。我们表明,即使减去喷流中物质的静止能量,这个源的喷流功率也应该非常高,达到 1039ergs-1 甚至更高。探测到的射电辐射的特性有利于在距离黑洞等秒距离处具有高斯强度磁场的喷流。这样的强磁场应该会抑制相对论电子的反康普顿(IC)发射,至少会抑制等秒尺度喷流的发射。另一方面,这种强磁场使μQ喷流成为完美的质子加速器。如果存在,质子应该很容易被加速到超高能级。不过,由于目标被稀释,质子在射流中应该不会损失掉相当一部分能量,而是在射流终点注入星际介质。这应该会大大提高GRS 1915+105附近的宇宙射线密度。如果目标气体分布极不均匀,这可能会表现为一个扩展的伽马射线源,或者表现为多个紧凑源。这一分析对未来几十年利用伽马射线观测站(如 LHAASO、CTA 和 SWGA)研究银河系 μQ 有直接的影响。
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来源期刊
Journal of High Energy Astrophysics
Journal of High Energy Astrophysics Earth and Planetary Sciences-Space and Planetary Science
CiteScore
9.70
自引率
5.30%
发文量
38
审稿时长
65 days
期刊介绍: The journal welcomes manuscripts on theoretical models, simulations, and observations of highly energetic astrophysical objects both in our Galaxy and beyond. Among those, black holes at all scales, neutron stars, pulsars and their nebula, binaries, novae and supernovae, their remnants, active galaxies, and clusters are just a few examples. The journal will consider research across the whole electromagnetic spectrum, as well as research using various messengers, such as gravitational waves or neutrinos. Effects of high-energy phenomena on cosmology and star-formation, results from dedicated surveys expanding the knowledge of extreme environments, and astrophysical implications of dark matter are also welcomed topics.
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